Electrode designs for lithium ion battery and capacitor hybrid system

The invention claimed is: 1. An electrochemical cell comprising an assembly of at least two pairs of stacked or wound rolls of facing electrodes of opposed electrical charge, each electrode consisting of a two-sided current collector foil coated on one or both sides with a porous layer of particles of an electrode material, each coated layer of electrode material being one selected from the group consisting of (i) a lithium ion intercalating/de-intercalating anode material, (ii) a lithium ion intercalating/de-intercalating cathode material, and (iii) a lithium ion, or compatible electrolyte anion, adsorbing/desorbing capacitor material, the porous layers of each electrode material being separated from each other by the two-sided current collector foil and from a directly facing layer of an electrode by a co-extensive porous separator layer, the porous layers of each electrode material and each separator being infiltrated with a non-aqueous liquid electrolyte of lithium ions and compatible anions; the at least two pairs of stacked or wound rolls of facing electrodes of opposite charge comprising an outer coated layer of electrode material at each end of the stack or wound roll with each of the other coated layers of electrode material being internal with respect to the outer coated layers of electrode material; the porous layers of electrode material that are coated separately on each two-sided current collector foil being selected from the group consisting of: (i) a layer of lithium-ion anode material on one or both sides of the current collector foil, (ii) a layer of lithium-ion cathode material on one or both sides of the current collector foil, and (iii) a layer of capacitor material on one or both sides of the current collector foil; the assembly of at least two pairs of facing, opposing electrical charge electrodes including at least one electrode coating layer of capacitor material facing at least one layer of opposing lithium-ion anode material or at least one layer of opposing lithium-ion cathode material, the measured lithium ion-adsorbing or anion-adsorbing capacity of the capacitor material and the measured lithium ion accepting capacity of the anode or cathode material being in the ratio range of 0.8-1.2; the at least two pairs of stacked or wound rolls of facing electrodes of opposite charge comprising a majority of the electrode coating layers of capacitor material which are located internally with respect to the outer layers of coated electrode materials; and the layers of electrode material on the at least two pairs of opposing electrodes being selected to obtain a predetermined combination of energy density (Wh/kg) and power density (W/kg) for the electrochemical cell. 2. An electrochemical cell as stated in claim 1 in which the anode material is lithium titanate, the cathode material is lithium manganese oxide, and the capacitor material is activated carbon. 3. An electrochemical cell as stated in claim 1 in which the electrochemical cell comprises two to four positive-charge electrode members interposed with a like number of negative-charge electrode members, at least one of the electrode members being a particulate capacitor composition directly facing a battery electrode composition of the opposite charge, the measured lithium ion accepting capacity of the capacitor material and the measured lithium ion accepting capacity of the battery composition material being in the ratio range of 0.8-1.2. 4. An electrochemical cell as stated in claim 3 in which the anode material is lithium titanate, the cathode material is lithium manganese oxide, and the capacitor material is activated carbon. 5. An electrochemical cell as stated in claim 1 in which the electrochemical cell comprises two to four positive-charge electrode members interposed with a like number of negative-charge electrode members, at least one of the electrode members being a particulate capacitor composition directly facing an anode composition of the opposite charge, the measured lithium ion accepting capacity of the capacitor material and the measured lithium ion accepting capacity of the anode composition material being in the ratio range of 0.8-1.2. 6. An electrochemical cell as stated in claim 5 in which the capacitor material is activated carbon and the anode material is lithium titanate. 7. An electrochemical cell as stated in claim 1 in which the electrochemical cell comprises three positive charge electrode members and three negative charge electrode members, a positive charged capacitor electrode directly facing a negative charged capacitor electrode, an anode electrode directly facing the positive charge capacitor electrode, and a cathode electrode directly facing the negative charge capacitor electrode, and the capacitor electrodes having equal ion absorbing capacity. 8. An electrochemical cell as stated in claim 7 in which the capacitor material is activated carbon, the anode material is lithium titanate, and the cathode material is lithium manganese oxide. 9. An electrochemical cell as stated in claim 1 comprising two negative charge anodes with a positive charge capacitor electrode placed between them and a cathode placed directly facing one of the anodes, the thickness of the anode material on the side of each anode facing the capacitor electrode being less than the thickness of the anode material on the opposite sides of their respective current collectors. 10. An electrochemical cell as stated in claim 9 in which the capacitor material is activated carbon, the anode material is lithium titanate, and the cathode material is lithium manganese oxide. 11. An electrochemical cell as stated in claim 1 in which the electrochemical cell comprises three positive charge electrode members and three negative charge electrode members in which a positive charged capacitor electrode is directly facing a negative charged capacitor electrode, an anode electrode is directly facing the positive charge capacitor electrode, and a cathode electrode is directly facing the negative charge capacitor electrode, the capacitor electrodes having equal ion absorbing capacity, the thickness of the anode material on the side of the anode electrode directly facing the positive charge capacitor electrode being less than the thickness of the anode material on the other side of its anode current collector, and the thickness of the cathode material on the side of the cathode directly facing the negative charge capacitor being less than the thickness of the cathode material on the other side of its cathode current collector. 12. An electrochemical cell as stated in claim 11 in which the capacitor material is activated carbon, the anode material is lithium titanate, and the cathode material is lithium manganese oxide. 13. An electrochemical cell as stated in claim 1 in which the electrochemical cell comprises three negative charge anodes, two of the anodes being one side-coated, and two positive charge cathodes, one of which is one side-coated, and a positive charge one side-coated capacitor, the cell being assembled with an uncoated side of an anode directly facing an uncoated side of the capacitor, the coated side of the second anode directly facing the coated side of the capacitor, and the uncoated side of the cathode directly facing the uncoated side of the second anode. 14. An electrochemical cell as stated in claim 13 in which the capacitor material is activated carbon, the anode material is lithium titanate, and the cathode material is lithium manganese oxide. 15. An electrochemical cell as stated in claim 1 in which the electrochemical cell comprises two ano